Prof Michael Johnston

Unveiling the ultrafast optoelectronic properties of 3D Dirac semi-metal Cd3As2

Proceedings of the 45th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz 2020) IEEE (2021)

Authors:

Jessica L Boland, Chelsea Q Xia, Djamshid A Damry, Piet Schoenherr, Laura M Herz, Thorsten Hesjedal, Michael B Johnston

Abstract:

We employ ultrafast optical-pump terahertz-probe spectroscopy and ultrafast THz emission spectroscopy to investigate the ultrafast charge carrier dynamics in the 3D Dirac semi-metal CdAs. We extract the temperature-dependent electron mobility (16,000cmVs at 5K) for CdAs nanowire ensemble. We also demonstrate strong THz emission from both CdAs single crystal and nanowires, whose polarity depends strongly on incident angle and pump polarisation.

Crystallization of CsPbBr3 single crystals in water for X-ray detection

Nature Communications Springer Nature 12:1 (2021) 1531

Authors:

Jiali Peng, Chelsea Q Xia, Yalun Xu, Ruiming Li, Lihao Cui, Jack K Clegg, Laura M Herz, Michael B Johnston, Qianqian Lin

Heterogeneous integration of semiconductor nanowires in 2D and 3D nanophotonic systems

SPIE, the international society for optics and photonics (2021) 31

Authors:

Dimitars Jevtics, Matej Hejda, Kun Peng, Benoit Guilhabert, Joshua Robertson, John McPhillimy, Hoe Tan, Chennupati Jagadish, Michael B Johnston, Michael Strain, Martin Dawson, Antonio Hurtado

Halide segregation in mixed-halide perovskites: influence of A-site cations

ACS Energy Letters American Chemical Society 6:2 (2021) 799-808

Authors:

Alexander Knight, Anna Juliane Borchert, Robert DJ Oliver, Jay Patel, Paolo G Radaelli, Henry Snaith, Michael B Johnston, Laura M Herz

Abstract:

Mixed-halide perovskites offer bandgap tunability essential for multijunction solar cells; however, a detrimental halide segregation under light is often observed. Here we combine simultaneous in situ photoluminescence and X-ray diffraction measurements to demonstrate clear differences in compositional and optoelectronic changes associated with halide segregation in MAPb(Br_0.5I_0.5)₃ and FA_0.83Cs_0.17Pb(Br_0.4I_0.6)₃ films. We report evidence for low-barrier ionic pathways in MAPb(Br_0.5I_0.5)₃, which allow for the rearrangement of halide ions in localized volumes of perovskite without significant compositional changes to the bulk material. In contrast, FA_0.83Cs_0.17Pb(Br_0.4I_0.6)₃ lacks such low-barrier ionic pathways and is, consequently, more stable against halide segregation. However, under prolonged illumination, it exhibits a considerable ionic rearrangement throughout the bulk material, which may be triggered by an initial demixing of A-site cations, altering the composition of the bulk perovskite and reducing its stability against halide segregation. Our work elucidates links between composition, ionic pathways, and halide segregation, and it facilitates the future engineering of phase-stable mixed-halide perovskites.

Understanding Dark Current-Voltage Characteristics in Metal-Halide Perovskite Single Crystals

Physical Review Applied American Physical Society (APS) 15:1 (2021) 014006

Authors:

Elisabeth A Duijnstee, Vincent M Le Corre, Michael B Johnston, L Jan Anton Koster, Jongchul Lim, Henry J Snaith